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PhD position in Physics, under the supervision of Prof. Noel Healy Integral to the second quantum revolution is the entangled photon. These emergent particles are essential in many technologies
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of quantum technologies are increasingly being stretched beyond the domain of conventional quantum optics theory. Today’s quantum emitters (QEs) are not just simple isolated atoms, but solid-state systems with
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Project title: Quantum Meta-Optics Supervisory Team: Dr Bruce Ou, Prof Otto Muskens Project description: The University of Southampton is expanding its PhD research in the area of Quantum Technology
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join our interdisciplinary team of students, postdocs, and senior researchers developing micro-optical devices for advancing quantum technologies. Many quantum technologies, such as quantum computing
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optical characterisation of nano- and quantum photonic devices, integrating quantum light emitters. They will work on a research project focused on the investigation of the optical properties
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process for funding, there are a maximum of nine awards available. Project Details Two-dimensional (2D) van der Waals (vdW) materials feature exotic electrical, magnetic, optical, and structural properties
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for not only making conventional optical components more compact but also for bringing new integrated functionalities that we hope to exploit in quantum technologies. While metamaterials stretch
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interaction, quantum information processing and quantum sensing. The focal point of this research project will be the integration of Rydberg atoms with optical and microwave cavities, enabling quantum state
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where long-term data security is needed. Quantum key distribution (QKD) is a technique that would provide the required level of data security but has so far been limited to fixed optical implementations
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Council). Project Details Non-linear quantum optomechanics Achieving partial control of 127 quantum bits (qubits) [1] shed light on the progress in the field of quantum computing, but also on the critical